KR20020035273A - Liquid Spray Apparatus for Purifying Pollutant Gases - Google Patents

Abstract

The present invention mainly dust, which is inevitably generated in the manure treatment plant, sewage treatment plant, livestock wastewater treatment plant, agricultural and marine products processing plant, plating plant, chemical plant, pharmaceutical factory, , , , , , , , The present invention relates to a liquid spray nozzle for a pollutant gas purifying apparatus to maximize the dissolution while purifying harmful gases and living odors. The liquid spray nozzle is formed by installing a torsion plate inside a nozzle disposed in a direction perpendicular to the water pipe, and the torsion plate is made by twisting in one of a left direction and a right direction. Spiral jaws and grooves are formed in the longitudinal direction. As a result, the injection of a powerful purifying liquid maximizes the dissolution of harmful components, thereby obtaining excellent purification performance. Therefore, it is possible to prevent air pollution by living odors and harmful gases, and also to suppress the occurrence of pneumoconiosis caused by harmful substances and various industries. Disaster prevention can be prevented, and the exhaust gas can be discharged in a completely purified state, thereby providing the effect of more efficient operation of the incinerator.

Description

Liquid Spray Apparatus for Purifying Pollutant Gases

The present invention relates to an improvement of a pollutant gas purifying apparatus, and more particularly, dust, which is inevitably generated in a manure treatment plant, a sewage treatment plant, a livestock wastewater treatment plant, an agricultural and marine product processing plant, a plating plant, a chemical plant, a pharmaceutical plant, , , , , , , , The present invention relates to a liquid spray nozzle for a pollutant gas purifying apparatus to maximize the dissolution while purifying harmful gases and living odors.

In general, the packed column purifier used to purify the polluted gas reacts with the water applied to the surface while reacting with the water applied to the surface while the gas emitted from the gas ejection pipe rises and passes through the multi-layered granules. There is a purification device that can be discharged by rising only the purified gas, but because it is only in contact with water while exiting between the granules, the contact area with water is small and the purification efficiency is low, making it a critical obstacle to practical use. However, there is a problem that the structure is complicated and the facilities are huge.

In addition, in the other type of stirred purifier, bubbles generated in the gas ejection pipe are destroyed by the propeller, and only the purified gas is raised and discharged by reacting with water, but this increases the rotational speed of the propeller. As the rotational force of water does not increase significantly, it is difficult to make it stronger than the buoyancy of the bubble. Therefore, the rising speed of the bubble is increased. Accordingly, the contact time with the water is shortened, and the harmful gas does not sufficiently react with the water. have.

The technology related to the pollutant gas purification device for improving such defects has been published in Korean Patent Publication No. 91-447. The pollutant gas purifying apparatus forms a plurality of nozzles 5 in one direction in a plurality of connecting pipes 4 radially installed in the columnar water tank 3, as shown in FIG. The air supply pipe 2 is connected to each other, and a plurality of water pipes 6 are installed and a plurality of nozzles 7 are arranged at right angles in one direction, and a pump P1 is connected to the water pipes 6. ought. Therefore, when the pump P1 is operated, the purification solution is pumped to the water pipe 6 in the columnar water tank 3, and water is injected into the nozzle 7. Here, the nozzles 5 of the connecting pipe 4 and the nozzles 7 of the water pipe 6 have the same installation directions so that the water jetted into the cylindrical water tank 3 forms a vortex by itself and its rotational speed. Is accelerated at a higher speed by continuously ejected water, and in this state, the nozzle 5 of the connecting pipe 4 is bubbled with a contaminant gas sprayed by a suction fan (not shown), etc. Rotating together with the purifying solution, the bubble has an upward force due to its buoyancy, and eventually it becomes a long and thin and disappears while drawing a spiral, and it is purifying. However, the nozzle installed in the water pipe has a simple form and is sprayed through the water pipe. There is a problem in that the liquid is a direct injection is not so good dissolution to achieve a good purification action.

The present invention has been made to solve the above-mentioned conventional problems, and to provide a liquid spraying device for a contaminated gas purifying device to achieve a good purifying action by accelerating to maximize the dissolution of the purifying liquid injected from the nozzle.

Features of the liquid spraying device for a pollutant gas purifying apparatus of the present invention for achieving the above object, the cylindrical tank having a circular air supply pipe for pumping the inhaled polluted gas at a predetermined point of the side portion, and the inside of the cylindrical tank A plurality of radially installed and a plurality of nozzles in one direction and at the same time the connection pipes and the water pipe is installed in a vertical state apart from the connection pipes, and a plurality of nozzles are arranged in a right direction. And a pump connected to the water pipe, the nozzle being disposed at right angles to the water pipe and the connecting pipe, and a torsion plate provided in either the left or right direction inside the nozzle.

Here, the nozzle preferably includes at least one spiral jaw and a groove formed on the inner wall in the longitudinal direction, and the nozzle is located inside the columnar tank above the first stage washing liquid circulation tank of the direct heat method and the latter stage washing liquid circulation tank of the direct heat method. It is preferable to install at least one.

Here, the water pipe, preferably arranged in a horizontal direction in the columnar water tank and a plurality of nozzles are arranged in the at least one group by advancing about the thickness of one gas connection pipe in the direction of fluid flow from the upper connection pipe. Do.

1 is a perspective view of main parts showing a conventional purification device;

2 is a partially cutaway perspective view of a state in which the present invention is applied to a conventional pollutant gas purifying apparatus,

3 is a perspective view of main parts of a purification device according to the present invention;

4 is a perspective view of a main part of the liquid horizontal spray nozzle according to the present invention;

5 is a torsion plate recessed perspective view of the liquid spray nozzle according to the present invention;

6 is a perspective view of the helical jaw and the groove of the liquid spray nozzle according to the present invention;

Figure 7 is a side cross-sectional view showing a spiral jaw and groove of the nozzle according to the present invention,

8 is an explanatory diagram showing a pollutant gas purification method according to the present invention;

9 is an overall cutaway perspective view showing the purification apparatus of the present invention in a two-layer structure,

FIG. 10 is a partially enlarged perspective view of FIG. 9. FIG.

Explanation of symbols on main parts of drawing

10; Eliminator 20; Annular pay agency

30; Columnar water tank 35; Demister

40; Connector 50,70; Nozzle

60; Water pipe 65; Horizontal water pipe

75; Nozzle 80 of the horizontal water pipe; Auxiliary tank

90; Level probe 100; Solenoid valve

110; Torsion plate (Screw Type Element) 120; Spiral jaw and groove

140; Previous stage washing liquid circulation tank 160; Subsequent cleaning liquid circulation tank

P1; Pump

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a perspective view of the main part of the purifying device according to the present invention, Figure 4 is a main perspective view of the liquid horizontal spray nozzle according to the present invention, Figure 5 is a torsion plate main part perspective view of the liquid spray nozzle according to the present invention, Figure 6 Fig. 7 is a side cross-sectional view showing a spiral jaw and a groove of a nozzle according to the present invention, and Fig. 8 is a contaminating gas purifying method according to the present invention. 9 is an exploded perspective view showing the purification apparatus of the present invention in a two-layer structure, and FIG. 10 is an enlarged perspective view of a partial cutaway of FIG. 9.

As shown in Figure 3 to 10, the liquid spray nozzle for the pollutant gas purifier of the present invention, the contaminated gas generated in the field by a suction fan (not shown) to pass through a known eliminator 10, Connected to the eliminator 10 and the annular pay pipe 20, and installed a columnar tank 30 on the inner circumferential surface, a predetermined number of connecting pipes (40) radially installed inside the annular pay pipe (20) A plurality of nozzles 50 are installed in the direction, and the connecting pipe 40 and the annular supply pipe 20 communicate with each other. In addition, a plurality of water pipes 60 are arranged in the vertical direction in the columnar water tank 30, and a plurality of nozzles 70 are arranged in the vertical direction with respect to the water pipe 60.

And the bottom of the plurality of water pipes 60 is formed in a ring shape is connected to the pump (P1), the auxiliary tank 80 is installed in the center of the columnar water tank 30, the auxiliary water tank 80 The solenoid valve 100 which is operated by the level probe 90 is connected below.

At least one torsion plate (Screw Type Element) 110 is installed in any one of a left direction and a right direction of the nozzle 70, which is disposed in a vertical direction with respect to the water pipe 60. The liquid injected through the water pipe 60 is to be sprayed in a torsion state.

The torsion plate 110 is twisted in any one of a left direction and a right direction, but one or more may be provided depending on the purpose. It is obvious that two or more fluids, ie liquids, gases, and powders, which are ejected in a continuous direction as liquid is moved through the nozzle, are well mixed.

Therefore, a vortex is formed in the tank at the injection pressure by the purifying solution pressure pump P1, and the purifying solution continuously sprayed from the water pipe 60 via the torsion plate 110, as shown in FIG. Rotational force is accelerated by rotating, so that the rotational force due to vortex is greater than the buoyancy of the gas bubbles, the bubble is rotated at high speed while the bubble is gradually longer and thinner with a large rotational force, buoyancy acts as shown in Figure 8 The spiral is rotated by the synthesis of the vector.

Here, the spraying force is accelerated by the torsion plate 110 embedded in the nozzle 70, so that the rotational force due to the vortex becomes larger, and the bubbles gradually tapered at the central portion of the columnar water tank 30 are absorbed into the purification solution. Lose. Therefore, the harmless gas, which is sufficiently filtered from the purification solution, is raised, and after the water is removed from the demister (water separator), only the gas is discharged to the gas outlet, thereby preventing air pollution and maintaining a comfortable working environment.

5 is a torsion plate recessed perspective view of the liquid spray nozzle according to the present invention.

As shown in FIG. 5, the liquid spray nozzle for the contaminant gas purifying apparatus of the present invention forms a water pipe 60 by forming at least one spiral jaw and the groove 120 in the longitudinal direction on the inner wall of the nozzle 70. Since the purifying liquid injected from is extruded with a strong priority or rotation of the left line, the vortex and dissolution of the purifying liquid are maximized to achieve a good purifying action.

In addition, as shown in FIG. 4, the horizontal water pipes 65 are arranged horizontally from the vertical, and the number of the nozzles 75 of the horizontal water pipes 65 is three to three or more, and the horizontal water pipes 65 are polluted gas. The contaminant gas connecting pipe 40 is disposed at the thickness of the upper part and the fluid advancing direction at the same time, and formed into at least one group. The dissolution is maximized to achieve good purification.

Then, as shown in FIG. 9, the rear stage cleaning liquid circulation tank 160 of the direct heat method is disposed separately on the upper stage of the front stage cleaning liquid circulation tank 140 of the direct heat method, and the rear stage cleaning liquid circulation tank 160 and the previous stage cleaning liquid circulation tank 140. By arranging a plurality of nozzles 50 and 70 around the upper and lower two-layer structure to achieve a stable and good cleaning action.

That is, since the vortex and dissolution of the clarification liquid are primarily performed in the first stage cleaning liquid circulation tank 140, and the secondary vortex and dissolution is performed in the subsequent rinsing liquid circulation tank 160, maximizing the dissolution of the clarifying liquid Purify

As described above, the present invention achieves excellent purification performance by maximizing the vortex of the purification liquid and harmful gas by making a strong screw injection of the purification liquid, thereby preventing air pollution by dust, living odor and harmful gas, and also harmful substances. It is possible to prevent the occurrence of pneumoconiosis and to prevent various industrial accidents, and to discharge the exhaust gas in a completely purified state to operate the incinerator more efficiently.

Claims (4)

And a plurality of columnar tanks, each having an annular air supply pipe for pumping the inhaled contaminant gas at a predetermined point on the side, and radially installed inside the cylindrical water tank, and having a plurality of nozzles in one direction and communicating with the annular air supply pipe. In the connection pipe, the water pipe which is installed in a vertical state apart from the connection pipe and a plurality of nozzles are arranged in a right angle direction, and made by connecting the pump to the water pipe, A nozzle disposed at right angles to the water pipe and the connection pipe; And a torsion plate installed in a direction of twisting in one of the left and right directions of the inside of the nozzle. The method of claim 1; The nozzle is a liquid spray device for a pollutant gas purifier, characterized in that further comprises a spiral jaw and groove formed in at least one longitudinal direction on the inner wall. The method of claim 1; And at least one nozzle is disposed in a columnar water tank at an upper portion of the first stage cleaning liquid circulation tank of the direct heat method and the second stage cleaning liquid circulation tank of the direct heat method. The method of claim 1; The water pipe is disposed in a columnar water tank in a horizontal direction, and a plurality of nozzles installed in the water pipe is arranged at least one group by advancing about one thickness of the gas connection pipe in the direction of fluid flow from the upper connection pipe. Liquid spray device for pollutant gas purification device.